Patrizia Lorenzoni scite author profile

Serial selection in vivo for liver colonization of B16 murine melanoma cells consistently resulted in cell lines expressing elevated amounts of the hepatocyte growth factor/scatter factor receptor (c-Met), which is constitutively activated in the absence of its cognate ligand. In this paper we present evidence suggesting that c-Met constitutive activation in liver-specific B16 melanoma cells depends on both receptor concentration on the cell surface and a cytosolic tyrosine phosphatase activity. In fact, c-Met constitutive activation is suddenly lost upon detachment of the cells from the substrate and is dramatically decreased in adherent cells plated at low density. The loss of tyrosine phosphorylation of c-Met in suspension appears to depend, at least partly, on an increased cytosolic tyrosine phosphatase activity. Instead, lower activation of c-Met at low density mostly results from a decrease in receptor concentration on the membrane. Moreover, we show that c-Met activation does not occur homogeneously on the surface of adherent cells. In fact, receptor concentration and activation appear to be higher on the ventral surface (adherent to the substrate) than on the apical surface. Upon detachment, compartmentalization is lost, leading to a decrease in average receptor density on the plasma membrane and hence to a lower activation.

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The role of both specific cellular adhesion and growth promotion in liver colonization by F9 embryonal carcinoma cells

Rusciano

Lorenzoni

Burger

1991

Intl Journal of Cancer

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Unselected F9 murine embryonal carcinoma cells preferentially colonize the liver upon injection into tail veins of syngeneic mice, while the lungs are only very rarely colonized. Here we show that F9 cells attach better to fibronectin than to laminin in an adhesion assay, like other liver-colonizing cell lines. Moreover, assays of adhesion to extracellular matrix (ECM) prepared from rat organs (liver, lung and kidney) demonstrate that, in the absence of serum, F9 cells adhere better to liver- than to kidney- or lung-derived ECM. Even in the presence of FCS, the adhesion to lung ECM remains very low. This very low adhesiveness of F9 cells to lung-derived ECM correlates well with the finding that, in an organ distribution assay, tail-vein-injected F9 cells are very rapidly released from the lungs, when compared to the retention times of the lung-specific murine melanoma cell line B16-F10. Yet another property appears to contribute to organ-specific colonization of these cells: extracts of liver promote the growth of F9 cells, in contrast to extracts of lung or kidney which have no effect. These data suggest that preferential formation of metastases in the liver following the intravenous injection of F9 cells is the result of both their adhesive abilities and their growth response to local microenvironment.

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Influence of Hepatocyte Growth Factor/Scatter Factor on the Metastatic Phenotype of B16 Melanoma Cells

Rusciano¹,

Lin²,

Lorenzoni³

et al. 1998

Tumor Biol

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B16 melanoma cells selected in mice for liver-specific metastasis (B16-LS9) overexpress a constitutively active form of the hepatocyte growth factor/scatter factor receptor (HGF/SFr), the product of the c-met proto-oncogene. HGF/SF can affect both invasion and growth of receptive cells. In fact, we show that overexpression of c-met in B16-LS9 cells results in a higher inducibility of two different proteolytic activities (uPA and gelatinase), in correlation with a stronger invasive and motility response to HGF/SF treatment. However, HGF/SF treatment inhibits growth of B16 cells, which might appear in contradiction with the observation that c-met overexpression and constitutive activation seems to be required for efficient liver colonization. However, this apparent discrepancy is resolved by the finding that liver-derived, but not lung-derived factor(s), can efficiently rescue B16-LS9 cells from the growth inhibitory effects of HGF/SF, while not changing their motility response. Therefore, overexpression of c-met in B16-LS9 cells might give a specific advantage in liver colonization, because specifically at this site B16-LS9 cells can take full advantage of the positive effects exerted by HGF/SF stimulation on motility and invasion, while the negative effects on growth are counteracted by other paracrine factor(s).

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Mechanisms regulating c-met overexpression in liver-metastatic B16-LS9 melanoma cells

et al. 2001

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Liver selected B16-LS9 melanoma cells show a dramatic overexpression of the proto-oncogene c-met, the cellular receptor for hepatocyte growth factor/scatter factor. As a consequence, c-met becomes constitutively active, and the cells become more responsive to hepatocyte growth factor stimulation. We have investigated the molecular mechanisms regulating c-met expression in both the parental line B16-F1, which has low expression levels, and the liver-specific B16-LS9, overexpressing c-met. Overexpression is observed at the protein and mRNA levels, however without further evidence of gene amplification or rearrangement. c-met promoter activity was higher in B16-LS9 than B16-F1 cells, and also a nuclear run-off showed higher transcription levels in B16-LS9 cells. Moreover, we found that c-met mRNA had a longer half-life in B16-LS9 cells, thus indicating also the involvement of post-transcriptional regulation mechanisms. Finally, we found evidence that autonomous activation of the melanocortin receptor-1 (MCR-1) is at least partially responsible for c-met upregulation in B16-LS9 cells, since treatment of the cells with a potent MSH antagonist (the agouti peptide) has strong down-regulatory effects.

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